Geometrical scale-factor stabilization of square cavity ring laser gyroscopes

J. Belfi, A. D. Di Virgilio, N. Beverini, G. Carelli, E. Maccioni, A. Simonelli, R. Santagata
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引用次数: 1

Abstract

Large frame ring laser gyros performances are ultimately limited by the instabilities of their geometrical parameters. We present the experimental activity on the GP2 ring laser gyro. GP2 is a ring laser gyro devoted to develop advanced stabilization techniques of the ring cavity geometrical scale-factor. A method based on optical interferometry has been developed for canceling the deformations of the resonator. The method is based on the measurement and stabilization of the absolute length of the cavity perimeter and of the resonators formed by the opposite cavity mirrors. The optical frequency reference in the experiment is an iodine-stabilized He-Ne laser, with a relative frequency stability of 10-11. The measurement of the absolute length of the two resonators has been demonstrated up to now on a test bench. We discuss the experimental results on GP2: the present performances as a ring laser gyro and the stabilization scheme to be implemented in the near future.
方形腔环形激光陀螺仪的几何尺度因子稳定
大框架环形激光陀螺几何参数的不稳定性最终限制了其性能。本文介绍了GP2环形激光陀螺的实验活动。GP2是一种致力于发展先进的环腔几何尺度因子稳定技术的环形激光陀螺。提出了一种基于光学干涉测量的消除谐振腔变形的方法。该方法是基于对空腔周长和相对空腔镜形成的谐振腔的绝对长度的测量和稳定。实验中的光学频率参考为碘稳定He-Ne激光器,相对频率稳定度为10-11。两个谐振腔的绝对长度的测量到目前为止已经在试验台上进行了验证。讨论了GP2作为环形激光陀螺的实验结果、目前的性能以及在不久的将来将要实现的稳定方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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